Leeson 174475 User manual
SPEEDMASTER®
MICRO SERIES COMPACT INVERTERS
Installation and Operation Manual
EC Declaration of Conformity
:H
/((621(OHFWULF
:DVKLQJWRQ6WUHHW
*UDIWRQ:LVFRQVLQ
86$
GHFODUHXQGHUVROHUHVSRQVLELOLW\WKDWWKHIROORZLQJHTXLSPHQWWRZKLFKWKLVGHFODUDWLRQUHODWHVPHHWV
WKHHVVHQWLDO KHDOWKDQG VDIHW\UHTXLUHPHQWV DQGLV LQFRQIRUPLW\ZLWKWKH UHOHYDQWVHFWLRQV RIWKH
DSSOLFDEOH(&VWDQGDUGVDQGRWKHUQRUPDWLYHGRFXPHQWV,IFKDQJHVDUHPDGHWRWKHSURGXFWWKDWLV
FRYHUHGE\WKLVGHFODUDWLRQRIFRQIRUPLW\WKHGHFODUDWLRQRIFRQIRUPLW\LVQRORQJHUYDOLG
(TXLSPHQW7\SH
$&9DULDEOH)UHTXHQF\0RWRU'ULYHVZLWKDGDWHFRGHRI0D\RUODWHU
WKUX
WKUX
WKUX
WKUX WKUX WKUX
WKUX WKUX
(&'LUHFWLYHV
%\YLUWXHRIWKLVFRQIRUPLW\WKHSURGXFWVDUHGHHPHGWRFRPSO\ZLWKWKHSURYLVLRQVRIWKH&RXQFLO
RI(XURSHDQ&RPPXQLWLHV'LUHFWLYHVOLVWHGSURYLGHGLQVWDOODWLRQVDUHFDUULHGRXWLQDFFRUGDQFH
ZLWKWKHPDQXIDFWXUHU·VLQVWUXFWLRQV
/RZ9ROWDJH'LUHFWLYH((&
(OHFWURPDJQHWLF&RPSDWLELOLW\'LUHFWLYH((&
+DUPRQL]HG6WDQGDUGV8VHG
(13DUW(PLVVLRQV5HVLGHQWLDO&RPPHUFLDODQG/LJKW,QGXVWULDO
(13DUW,PPXQLW\,QGXVWULDO(QYLURQPHQW
SU(1(OHFWURQLF(TXLSPHQWIRUXVHLQ3RZHU,QVWDOODWLRQV
ZLWKVXLWDEOHILOWHUVWKDWDUHSURSHUO\LQVWDOOHG
$XWKRUL]HG5HSUHVHQWDWLYH
0V(OLVD%DVVR
/HHVRQ(OHFWULF,QWHUQDWLRQDO 3KRQH
9LD&DGXWL'L6DEELXQR'( )D[
$Q]ROD(PLOLD%RORJQD
C ,WDO\
'DWHGWKLVWK GD\RI0DUFK
-RKQ5\GHVNL$JHQF\3URMHFW(QJLQHHU
5HYLVLRQ
TABLE OF CONTENTS
1.0 GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
PRODUCT CHANGES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
WARRANTY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
RECEIVING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
CUSTOMER MODIFICATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
2.0 MICRO SERIES SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
4.0 MICRO SERIES DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
5.0 MICRO SERIES RATINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
6.0 THEORY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
DESCRIPTION OF AC MOTOR OPERATION . . . . . . . . . . . . . . . . . . . . . . . . . . 13
DRIVE FUNCTION DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
7.0 INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
8.0 INPUT AC REQUIREMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
9.0 VOLTAGE SELECTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
10.0 POWER WIRING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
11.0 MICRO SERIES POWER WIRING DIAGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . 22
12.0 INITIAL POWER UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
13.0 KEYPAD CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
KEYPAD FUNCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
MICRO SERIES DISPLAY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
14.0 CONTROL WIRING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
START/STOP AND SPEED CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
15.0 MICRO SERIES CONTROL WIRING DIAGRAMS . . . . . . . . . . . . . . . . . . . . . . . 36
MICRO SERIES TERMINAL STRIP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
TWO-WIRE START/STOP CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
THREE-WIRE START/STOP CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
SPEED POT AND PRESET SPEED CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . 39
16.0 PROGRAMMING THE MICRO SERIES DRIVE . . . . . . . . . . . . . . . . . . . . . . . . . 40
PROGRAMMING THE PARAMETERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
PARAMETER ACCESS USING SPEED DIAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
17.0 PARAMETER MENU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
18.0 DESCRIPTION OF PARAMETERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
19.0 TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
20.0 USER SETTING RECORD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71
1
1.0 GENERAL
1.2 PRODUCT CHANGES
LEESON Electric reserves the right to discontinue or make modifications to the design of its products
without prior notice, and holds no obligation to make modifications to products sold previously. LEESON
Electric also holds no liability for losses of any kind which may result from this action.
1.3 WARRANTY
LEESON Electric warrants the SPEEDMASTER MICRO Series AC motor control to be free of defects in
material and workmanship for a period of twelve months from the date of sale to the user, or two years from
the date of manufacture, which ever occurs first. Any control component, which under normal use, becomes
defective, within the stated warranty time period shall be returned to LEESON Electric, freight prepaid, for
examination. Contact Leeson’s Warranty Dept. for a return authorization number and shipping instructions.
LEESON Electric reserves the right to make the final determination as to the validity of a warranty claim,
and sole obligation is to repair or replace only components which have been rendered defective due to faulty
material or workmanship. No warranty claim will be accepted for components which have been damaged
due to mishandling, improper installation, unauthorized repair and/or alteration of the product, operation
in excess of design specifications or other misuse, or improper maintenance. LEESON Electric makes no
warranty that its products are compatible with any other equipment, or to any specific application, to which
they may be applied and shall not be held liable for any other consequential damage or injury arising from
the use of its products.
This warranty is in lieu of all other warranties, expressed or implied. No other person, firm or
corporation is authorized to assume, for LEESON Electric, any other liability in connection with the
demonstration or sale of its products.
NOTE 1: LEESON will match mode of transportation if drive is repaired under warranty. Customer
will be invoiced for shipping if no problem is found, if the repair is non-warranty, or if the return mode is
different.
NOTE 2: There is a minimum inspection fee of $100.00 if no problem is found. There is an additional
charge of 25% for Rush Service.
1.4 RECEIVING
Inspect all cartons for damage which may have occurred during shipping. Carefully unpack equipment and
inspect thoroughly for damage or shortage. Report any damage to carrier and/or shortages to supplier. All
major components and connections should be examined for damage and tightness, with special attention
given to PC boards, plugs, knobs and switches.
1.5 CUSTOMER MODIFICATION
LEESON Electric, its sales representatives and distributors, welcome the opportunity to assist our customers
in applying our product. LEESON Electric cannot assume responsibility for any modifications not
authorized by its engineering department.
2
2.0 MICRO SERIES SPECIFICATIONS
Storage Temperature -20° to 70° C
Ambient Operating Temperature Chassis -10° to 55° C
(With 2.5 and 8 kHZ carrier, Type 1 (IP 31) -10° to 50° C
derate for higher carriers) Type 4 (IP 65) -10° to 40° C
Type 12 (IP 54) -10° to 40° C
Ambient Humidity Less than 95%
(non-condensing)
Maximum Altitude 3300 feet (1000 meters)
above sea level
Input Line Voltages 240/120 Vac, 240/200 Vac,
480/400 Vac, and 590/480 Vac
Input Voltage Tolerance +10%, -15%
Input Frequency Tolerance 48 to 62 Hz
Output Wave Form Sine Coded PWM
Output Frequency 0-120 Hz, Optional up to 1000 Hz
Carrier Frequency 2.5 kHz to 14 kHz
Frequency Stability +/-0.00006%/ C
Service Factor 1.00
Efficiency > 97% throughout speed range
Power Factor (Displacement) > 0.96
Overload Current Capacity 150% of drive output rating
for one minute
180% of drive output rating
for 30 seconds
Speed Reference Follower 0-10 VDC, or 4-20 mA
Control Voltage 15 VDC
Analog Outputs 0 - 10 VDC, or 2 - 10 VDC
Proportional to speed or load
Digital Outputs Form C relay: 2 A at 28 VDC or
120 Vac
Open-collector outputs:
40 mA at 30 VDC
3
4
4.0 MICRO SERIES DIMENSIONS
4.1 TYPE 1 ENCLOSED
HP INPUT CATALOG
(kW) VOLTAGE NUMBER H W D N P Q R S
0.25 240/120 174930 7.50 4.70 3.33 2.35 1.60 1.37 5.50 0.88
(0.18)
0.5 240/120 174997 7.50 6.12 3.63 3.77 1.80 1.37 5.50 0.88
(0.37) 240/200 174914 7.50 4.70 3.63 2.35 1.90 1.37 5.50 0.88
1 240/120 174931 7.50 6.12 4.22 3.77 2.40 1.37 5.50 0.88
(0.75) 240/200 174915 7.50 4.70 4.33 2.35 2.60 1.37 5.50 0.88
480/400 174920 7.50 4.70 3.63 2.35 1.90 1.37 5.50 0.88
590 174925 7.50 4.70 3.63 2.35 1.90 1.37 5.50 0.88
1.5 240/120 174932 7.50 6.12 4.22 3.77 2.40 1.37 5.50 0.88
(1.1) 240/200 174916 7.50 4.70 4.33 2.35 2.60 1.37 5.50 0.88
2 240 174933 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
(1.5) 240/200 174917 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
480/400 174921 7.50 6.12 4.22 3.77 2.40 1.37 5.50 0.88
590 174926 7.50 6.12 4.22 3.77 2.40 1.37 5.50 0.88
3 240 174934 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
(2.2) 240/200 174918 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
480/400 174922 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
590 174927 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
5 240/200 174919 7.88 7.86 5.94 5.13 3.95 1.50 5.88 1.13
(4) 480/400 174923 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
590 174928 7.50 6.12 5.12 3.77 3.30 1.37 5.50 0.88
W
R
D
H
QQ
P
N
Conduit Holes:
S Dia.
0.88" Dia.
S Dia.
T
Dia. Slot
Mounting Tab Detail
WU
V
1.00"
R
IF W ≤7.86"
T = 0.20"
U = 0.34"
V = 0.19"
IF W ≥10.26"
T = 0.28"
U = 0.44"
V = 0.24"
5
HP INPUT CATALOG
(kW) VOLTAGE NUMBER H W D N P Q R S
7.5 240/200 174545 7.88 7.86 5.95 5.13 3.95 1.80 5.88 1.13
(5.5) 480/400 174924 7.88 7.86 5.94 5.13 3.95 1.50 5.88 1.13
590 174929 7.88 7.86 5.94 5.13 3.95 1.50 5.88 1.13
10 240/200 174551 11.25 7.86 6.84 3.93 4.19 2.00 7.75 1.38
(7.5) 480/400 174552 9.38 7.86 6.84 3.93 4.19 2.00 5.88 1.13
590 174553 9.38 7.86 6.84 3.93 4.19 2.00 5.88 1.13
15 240/200 174557 12.75 7.86 6.84 3.93 4.19 2.00 9.25 1.38
(11) 480/400 174558 11.25 7.86 6.84 3.93 4.19 2.00 7.75 1.38
590 174559 12.75 7.86 6.84 3.93 4.19 2.00 9.25 1.38
20 240/200 174560 12.75 10.26 7.74 5.13 5.00 2.50 9.25 1.38
(15) 480/400 174561 12.75 7.86 6.84 3.93 4.19 2.00 9.25 1.38
590 174562 12.75 7.86 7.40 3.93 4.19 2.00 9.25 1.38
25 240/200 174569 15.75 10.26 8.35 5.13 5.00 2.50 12.25 1.38
(18.5) 480/400 174563 12.75 10.26 7.74 5.13 5.00 2.50 9.25 1.38
590 174564 12.75 10.26 7.74 5.13 5.00 2.50 9.25 1.38
30 240/200 174571 15.75 10.26 8.35 5.13 5.00 2.50 12.25 1.38
(22) 480/400 174565 12.75 10.26 7.74 5.13 5.00 2.50 9.25 1.38
590 174598 15.75 10.26 7.74 5.13 5.00 2.50 12.25 1.38
40 480/400 174567 12.75 10.26 8.35 5.13 5.00 2.50 9.25 1.38
(30) 590 174599 15.75 10.26 8.35 5.13 5.00 2.50 12.25 1.38
50 480/400 174593 19.75 10.26 8.55 5.13 5.75 2.50 16.25 1.75
(37) 590 174594 19.75 10.26 8.55 5.13 5.75 2.50 16.25 1.75
60 480/400 174572 19.75 10.26 8.55 5.13 5.75 2.50 16.25 1.75
(45) 590 174573 19.75 10.26 8.55 5.13 5.75 2.50 16.25 1.75
W
R
D
H
QQ
P
N
Conduit Holes:
S Dia.
0.88" Dia.
S Dia.
T
Dia. Slot
Mounting Tab Detail
WUV
1.00"
R
IF W ≤7.86"
T = 0.20"
U = 0.34"
V = 0.19"
IF W ≤10.26"
T = 0.28"
U = 0.44"
V = 0.24"
6
4.2 WASHGUARD NEMA 4/12, 12, & 4X
HP INPUT CATALOG
(kW) VOLTAGE NUMBER H W D N P Q R S
0.25 240/120 174996 7.88 6.12 3.63 3.06 2.00 1.37 5.88 0.88
(0.18) 174519**
0.5 240/120 174998 7.88 7.86 3.75 4.80 2.10 1.37 5.88 0.88
(0.37) 174520**
240/200 174935 7.88 6.12 4.35 3.06 2.70 1.37 5.88 0.88
174527**
1 240/120 174999 7.88 7.86 3.75 4.80 3.25 1.37 5.88 0.88
(0.75) 174521**
240/200 174936 7.88 6.12 4.35 3.06 2.70 1.37 5.88 0.88
174528**
480/400 174939 7.88 6.12 4.35 3.06 2.70 1.37 5.88 0.88
174532**
590 174943 7.88 6.12 4.35 3.06 2.70 1.37 5.88 0.88
174536**
1.5 240/120 174515 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
(1.1) 174517**
240/200 174482 7.88 6.12 5.25 3.06 3.60 1.37 5.88 0.88
174529**
2 240 174475 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
(1.5) 174525**
240/200 174937 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
174530**
480/400 174940 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
174533**
590 174944 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
174537**
* = NEMA 12 Only
** = NEMA 4X
Others are NEMA 4/12
W
R
D
H
QQ
P
N
Conduit Holes:
S Dia.
0.88" Dia.
S Dia.
T
Dia. Slot
Mounting Tab Detail
WUV
1.00"
R
IF W ≤7.86"
T = 0.20"
U = 0.34"
V = 0.19"
IF W ≤10.26"
T = 0.28"
U = 0.44"
V = 0.24"
7
HP INPUT CATALOG
(kW) VOLTAGE NUMBER H W D N P Q R S
3 240 174729 7.88 7.86 5.90 4.80 4.25 1.37 5.88 0.88
(2.2) 174526**
240/200 174938 7.88 7.86 5.90 4.80 4.25 1.37 5.88 0.88
174531**
480/400 174941 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
174534**
590 174945 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
174538**
5 240/200 174730 7.88 7.86 4.90 4.80 3.25 1.37 5.88 0.88
(4) 174732**
480/400 174942 7.88 7.86 5.90 4.80 4.25 1.37 5.88 0.88
174535**
590 174946 7.88 7.86 5.90 4.80 4.25 1.37 5.88 0.88
174539**
7.5 240/200 174734 11.75 10.26 8.35 5.13 5.75 2.00 9.75 1.38
(5.5) 174735**
480/400 174548 8.38 10.26 6.90 5.13 5.25 2.00 6.38 1.38
174745**
590 174549 9.75 10.26 7.20 5.13 5.25 2.00 7.75 1.13
174759**
10 240/200 174737 13.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
(7.5) 174738**
480/400 174554 11.75 10.26 8.35 5.13 5.75 2.00 9.75 1.38
174747**
590 174556 11.75 10.26 8.35 5.13 5.75 2.00 9.75 1.13
174761**
15 240/200 174740 15.75 10.26 8.35 5.13 5.75 2.00 13.75 1.38
(11) 174741**
480/400 174749 13.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
174750**
590 174763 13.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
174764**
* = NEMA 12 Only
** = NEMA 4X
Others are NEMA 4/12
W
R
D
H
QQ
P
N
Conduit Holes:
S Dia.
0.88" Dia.
S Dia.
T
Dia. Slot
Mounting Tab Detail
WUV
1.00"
R
IF W ≤7.86"
T = 0.20"
U = 0.34"
V = 0.19"
IF W ≤10.26"
T = 0.28"
U = 0.44"
V = 0.24"
8
HP INPUT CATALOG
(kW) VOLTAGE NUMBER H W D N P Q R S
20 240/200 174743* 15.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
(15) 480/400 174752 15.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
174753**
590 174766 15.75 10.26 8.35 5.13 5.75 2.00 13.75 1.38
174767**
25 240/200 174595* 20.25 10.26 8.35 5.13 5.75 2.00 16.25 1.38
(18.5) 480/400 174755* 15.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
590 174769* 15.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
30 240/200 174596* 20.25 10.26 8.35 5.13 5.75 2.00 11.75 1.38
(22) 480/400 174757* 15.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
590 174597* 15.75 10.26 8.35 5.13 5.75 2.00 11.75 1.38
40 480/400 174513* 20.25 10.26 8.35 5.13 5.75 2.00 16.25 1.38
(30) 590 174512* 20.25 10.26 8.35 5.13 5.75 2.00 16.25 1.38
50 480/400 174511* 21.00 13.72 8.35 5.13 6.10 2.00 16.25 1.38
(37) 590 174510* 21.00 13.72 8.35 5.13 6.10 2.00 16.25 1.38
60 480/400 174574* 21.00 13.72 8.35 5.13 6.10 2.00 16.25 1.38
(45) 590 174575* 21.00 13.72 8.35 5.13 6.10 2.00 16.25 1.38
* = NEMA 12 Only
** = NEMA 4X
Others are NEMA 4/12
W
R
D
H
QQ
P
N
Conduit Holes:
S Dia.
0.88" Dia.
S Dia.
T
Dia. Slot
Mounting Tab Detail
WUV
1.00"
R
IF W ≤7.86"
T = 0.20"
U = 0.34"
V = 0.19"
IF W ≤10.26"
T = 0.28"
U = 0.44"
V = 0.24"
9
5.0 MICRO SERIES RATINGS
115/230 & 230V (SINGLE PHASE) VOLT MICRO SERIES RATINGS
MODEL INPUT OUTPUT
(120/240 Vac, 50-60 Hz) (0-230 Vac)
NOMINAL
FOR MOTORS CURRENT NOMINAL
CATALOG RATED INPUT (AMPS) POWER CURRENT POWER
NUMBER HP kW PHASE (NOTE 1) (KVA) (AMPS) (KVA)
174930
174996* 0.25 0.18 1 6.0/3.0 0.7 1.4/1.4 0.6
174519**
174997
174998* .50 0.37 1 9.2/4.6 1.1 2.2/2.2 0.9
174520**
174391
174999* 1 0.75 1 16.2/8.1 1.9 4.0/4.0 1.6
174521**
174932
174515* 1.5 1.1 1 21.0/10.4 2.5 5.2/5.2 2.1
174517**
MODEL INPUT OUTPUT
(200/240 Vac, 50-60 Hz) (0-200/230 Vac)
174933
174475* 2 1.5 1 17.1/14.9 3.6 7.8/6.8 2.7
174525**
174934
174729* 3 2.2 1 24/21 5.0 11.0/9.6 3.8
174526**
NOTE 1: For 115/230 Vac, the higher current rating is for 120 Vac input and the lower current rating is for 240 Vac input.
NOTE 2: See Section 8.0 for recommended fuse type.
* = NEMA 4/12 ENCLOSURE
** = NEMA 4X ENCLOSURE
OTHERS ARE NEMA 1 ENCLOSURE
10
230 VOLT MICRO SERIES RATINGS
MODEL INPUT OUTPUT
(200/240 Vac, 50-60 Hz) (0-200/230 Vac)
FOR MOTORS NOMINAL NOMINAL
CATALOG RATED INPUT CURRENT POWER CURRENT POWER
NUMBER HP kW PHASE (AMPS) (KVA) (AMPS) (KVA)
174914
174935* .50 0.37 3 3.1/2.7 1.1 2.5/2.2 0.88
174527**
174915
174936* 1 0.75 3 5.5/4.8 2.0 4.6/4.0 1.6
174528**
174916
174482* 1.5 1.1 3 7.1/6.2 2.6 6.0/5.2 2.1
174529**
174917
174937* 2 1.5 3 9.3/8.1 3.4 7.8/6.8 2.7
174530**
174918
174938* 3 2.2 3 13.0/11.3 4.7 11.0/9.6 3.8
174531**
174919
174730* 5 3.7 3 20.0/17.7 7.4 17.5/15.2 6.1
174732**
174545
174734* 7.5 5.5 3 30/26 10.6 25/22 8.8
174735**
174551
174737* 10 7.5 3 37/32 13.2 32/28 11.2
174738**
174557
174740* 15 11 3 55/48 19.8 48/42 16.7
174741**
174560 20 15 3 70/61 25.3 62/54 21.5
174743*
174569 25 18.5 3 89/77 32.0 78/68 27.1
174595*
174571 30 22 3 104/90 37.6 92/80 31.9
174596*
NOTE See Section 8.0 for recommended fuse type.
* = NEMA 4/12 or 12 ENCLOSURE
** = NEMA 4X ENCLOSURE
OTHERS ARE NEMA 1 ENCLOSURE
11
460 VOLT MICRO SERIES RATINGS
MODEL INPUT OUTPUT
(400/480 Vac, 50-60 Hz) (0-400/460 Vac)
FOR MOTORS NOMINAL NOMINAL
CATALOG RATED INPUT CURRENT POWER CURRENT POWER
NUMBER HP kW PHASE (AMPS) (KVA) (AMPS) (KVA)
174920
174939* 1 0.75 3 2.8/2.4 2.0 2.3/2.0 1.6
174532**
174921
174940* 2 1.5 3 4.7/4.1 3.4 3.9/3.4 2.7
174533**
174922
174941* 3 2.2 3 6.8/5.7 4.7 5.5/4.8 3.8
174534**
174923
174942* 5 3.7 3 10.2/8.9 7.3 8.7/7.6 6.1
174535**
174924
174548* 7.5 5.5 3 14.7/12.8 10.6 12.6/11.0 8.8
174745**
174552
174554* 10 7.5 3 18.3/15.9 13.2 16.0/14.0 11.2
174747**
174558
174749* 15 11 3 28/24 19.8 24/21 16.7
174750**
174561
174752* 20 15 3 36/31 25.3 31/27 21.5
174753**
174563 25 18.5 3 44/38 31.9 39/34 27.1
174755*
174565 30 22 3 52/45 37.6 46/40 31.9
174757*
174567 40 30 3 68/59 49.0 60/52 44.0
174513*
174593 50 37 3 85/74 61.5 75/65 51.8
174511*
174572 60 45 3 100/87 72.3 88/77 61.3
174574*
NOTE See Section 8.0 for recommended fuse type.
* = NEMA 4/12 or 12 ENCLOSURE
** = NEMA 4X ENCLOSURE
OTHERS ARE NEMA 1 ENCLOSURE
12
575 VOLT MICRO SERIES RATINGS
MODEL INPUT OUTPUT
(480/590 Vac, 50-60 Hz) (0-460/575 Vac)
FOR MOTORS NOMINAL NOMINAL
CATALOG RATED INPUT CURRENT POWER CURRENT POWER
NUMBER HP kW PHASE (AMPS) (KVA) (AMPS) (KVA)
174925
174943* 1 0.75 3 1.9 / 1.9 1.9 1.6 / 1.6 1.6
174536**
174926
174944* 2 1.5 3 3.3 / 3.3 3.4 2.7 / 2.7 2.7
174537**
174927
174945* 3 2.2 3 4.6 / 4.6 4.7 3.9 / 3.9 3.9
174538**
174928
174946* 5 3.7 3 7.1 / 7.1 7.3 6.1 / 6.1 6.1
174539**
174929
174549* 7.5 5.5 3 10.5 / 10.5 10.7 9.0 / 9.0 8.8
174759**
174553
174556* 10 7.5 3 12.5 / 12.5 12.8 11.0 / 11.0 11.0
174761**
174559
174763* 15 11 3 19.3 / 19.3 19.7 17.0 / 17.0 16.9
174764**
174562
174766* 20 15 3 25 / 25 25.4 22 / 22 21.5
174767**
174564 25 18.5 3 31 / 31 31.2 27 / 27 26.9
174769*
174566 30 22 3 36 / 36 37.1 32 / 32 31.9
174597*
174599 40 30 3 47 / 47 47.5 41 / 41 40.8
174512*
174594 50 37 3 59 / 59 60.3 52 / 52 51.8
174510*
174573 60 45 3 71 / 71 72.5 62 / 62 61.7
174575*
NOTE See Section 8.0 for recommended fuse type.
* = NEMA 4/12 or 12 ENCLOSURE
** = NEMA 4X ENCLOSURE
OTHERS ARE NEMA 1 ENCLOSURE
6.0 THEORY
6.1 DESCRIPTION OF AC MOTOR OPERATION
Three phase AC motors are comprised of two major components, the stator and the rotor. The stator is a
set of three electrical windings held stationary in the motor housing. The rotor is a metal cylinder, fixed to
the motor drive shaft, which rotates within the stator. The arrangement of the stator coils and the presence
of three phase AC voltage give rise to a rotating magnetic field which drives the rotor. The speed at which
the magnetic field rotates is known as the synchronous speed of the motor. Synchronous speed is a function
of the frequency at which the voltage is alternating and the number of poles in the stator windings.
The following equation gives the relation between synchronous speed, frequency, and the number of poles:
Ss = 120 f/p
Where: Ss = Synchronous speed (rpm), f = frequency (Hz),
p = number of poles
In three phase induction motors the actual shaft speed differs from the synchronous speed as load is applied.
This difference is known as "slip". Slip is commonly expressed as a percentage of synchronous speed. A
typical value is three percent at full load.
The strength of the magnetic field in the gap between the rotor and stator is proportional to the amplitude
of the voltage at a given frequency. The output torque capability of the motor is, therefore, a function of the
applied voltage amplitude at a given frequency. When operated below base (rated) speed, AC motors run in
the range of "constant torque". Constant torque output is obtained by maintaining a constant ratio between
voltage amplitude (Volts) and frequency (Hertz). For 60 Hz motors rated at 230, 460, and 575 Vac,
common values for this V/Hz ratio are 3.83, 7.66, and 9.58 respectively. Operating with these V/Hz ratios
generally yields optimum torque capability. Operating at lower ratio values results in lower torque and
power capability. Operating at higher ratio values will cause the motor to overheat. Most standard motors
are capable of providing full torque output from 3 to 60 Hz. However, at lower speeds, where motor
cooling fans become less effective, supplemental cooling may be needed to operate at full torque output
continuously.
13
If the frequency applied to the motor is increased while the voltage remains constant, torque capability will
decrease as speed increases. This will cause the horsepower capability of the motor to remain approximately
constant. Motors run in this mode when operated above base speed, where drive output voltage is limited
by the input line voltage. This operating range is known as the "constant horsepower" range. The typical
maximum range for constant horsepower is about 2.3 to 1 (60 to 140 Hz). The diagram below depicts the
operating characteristics of a typical AC induction motor with a 60 Hz base speed.
Consult motor manufacturer before operating motor and/or driven equipment above base speed.
6.1.1 VARIABLE TORQUE VS CONSTANT TORQUE
Variable frequency drives, and the loads they are applied to, can generally be divided into two groups:
constant torque and variable torque. Constant torque loads include: vibrating conveyors, punch presses,
rock crushers, machine tools, and just about every other application that is not considered variable torque.
Variable torque loads include centrifugal pumps and fans, which make up the majority of HVAC
applications.
Variable torque loads are governed by the affinity laws, which define the relationships between speed, flow,
torque, and horsepower. The diagram below illustrates these relationships:
14
WARNING
CONSTANT TORQUE CONSTANT HP
TORQUE (PERCENT)
TORQUE HORSEPOWER
TORQUE
HORSEPOWER
150
130
110
90
70
50
30
10
10 20 30 40 50 60 70 80 90 100 110 120
100%
75%
50%
25%
0%
0% 25% 50% 75% 100%
% SPEED
% FLOW
% TORQUE
% HORSEPOWER
"Variable torque" refers to the fact that the torque required varies with the square of the speed. Also, the
horsepower required varies with the cube of the speed, resulting in a large reduction in horsepower for even
a small reduction in speed. It is easily seen that substantial energy savings can be achieved by reducing
the speed of a fan or pump. For example, reducing the speed to 50% results in a 50 HP motor having to
produce only 12.5% of rated horsepower, or 6.25 HP. Variable torque drives usually have a low overload
capacity (110% - 120% for 60 seconds), because variable torque applications rarely experience overload
conditions. To optimize efficiency and energy savings, variable torque drives are usually programmed to
follow a variable V/Hz ratio.
The term "constant torque" is not entirely accurate in terms of the actual torque required for an application.
Many constant torque applications have reciprocating loads, such as vibrating conveyors and punch presses,
where the rotational motion of the motor is being converted to a linear motion. In such cases, the torque
required can vary greatly at different points in the cycle. For constant torque loads, this fluctuation in torque
is not a direct function of speed, as it is with a variable torque load. As a result, constant torque drives
typically have a high overload rating (150% for 60 seconds) in order to handle the higher peak torque
demands. To achieve maximum torque, constant torque drives follow a constant V/Hz ratio.
MICRO Series product lines have full overload capacity (150% for 60 seconds, 180% for 30 seconds), so
that either one can be used for either type of application. The V/Hz ratio can also be changed to optimize
performance for either type of application.
6.2 DRIVE FUNCTION DESCRIPTION
The MICRO Series is a 16 bit microprocessor based, keypad programmable, variable speed AC motor drive.
There are four major sections; an input diode bridge and a filter, a power board, a control board, and an
output intelligent power module.
6.2.1 DRIVE OPERATION
Incoming AC line voltage is converted to a pulsating DC voltage by the input diode bridge. The DC
voltage is supplied to the bus filter capacitors through a charge circuit which limits inrush current to the
capacitors during power-up. The pulsating DC voltage is filtered by the bus capacitors which reduces
the ripple level. The filtered DC voltage enters the inverter section of the drive, composed of six output
intelligent insulated gate bi-polar transistors (IGBT's) which make up the three output legs of the drive.
Each leg has one intelligent IGBT connected to the positive bus voltage and one connected to the negative
bus voltage. Alternately switching on each leg, the intelligent IGBT produces an alternating voltage on each
of the corresponding motor windings. By switching each output intelligent IGBT at a very high frequency
(known as the carrier frequency) for varying time intervals, the inverter is able to produce a smooth, three
phase, sinusoidal output current wave which optimizes motor performance.
6.2.2 CIRCUIT DESCRIPTION
The control section consists of a control board with a 16 bit microprocessor, keypad and display. Drive
programming is accomplished via the keypad or the serial communications port. During operation the drive
can be controlled via the keypad, by control devices wired to the control terminal strip, or by the serial
communications port. The Power Board contains the control and protection circuits which govern the six
output IGBT's. The Power Board also contains a charging circuit for the bus filter capacitors, a motor
current feedback circuit, a voltage feedback circuit, and a fault signal circuit. The drive has several built in
protection circuits. These include phase-to-phase and phase-to ground short circuit protection, high
and low line voltage protection, protection against excessive ambient temperature, and protection against
continuous excessive output current. Activation of any of these circuits will cause the drive to shut down in
a fault condition.
15
6.2.3 MC1000 INPUTS AND OUTPUTS
The drive has two analog inputs (0-10 VDC and 4-20 mA) that can be used for speed reference, PID
setpoint reference, or PID feedback. A speed potentiometer (10,000 Ohm) can be used with the 0-10 VDC
input.
There are also two analog outputs: one is proportional to speed (frequency), and the other is proportional
to load.
The drive has three programmable outputs for status indication: one Form C relay and two open-collector
outputs.
Refer to Sections 14.0 - CONTROL WIRING and 15.0 - CONTROL WIRING DIAGRAMS for more
information.
16
The following describes the possible relay output settings:
NONE This setting disables the relay output.
RUN The relay energizes when the drive is given a START command, and remains
energized until: a STOP command is given and the output frequency has
decelerated to 0.5 Hz, the drive has "tripped", or the input voltage is removed.
Note that this relay indicates only that the drive is in the RUN mode. It does not
necessarily indicate that the motor is turning.
FAULT The relay energizes when input voltage is applied to the drive and remains
energized until the drive "trips" into a fault condition, or input voltage is removed.
/FAULT INVERSE FAULT - The relay energizes when the drive trips into a fault
condition, and remains energized until the fault condition is cleared.
LOCK FAULT LOCKOUT - This relay is used when the drive is programmed to
automatically restart after a fault. The relay energizes when input voltage is applied
to the drive and remains energized until the drive has faulted and unsuccessfully
attempted five restarts, or input voltage is removed.
@SPEED AT SPEED - The relay energizes when the drive reaches the commanded
frequency. To avoid a "chattering" relay (constantly energizing and de-energizing),
due to small fluctuations in speed. the relay will change states only when the
actual speed and the speed setpoint differ by 3 Hz.
ABOVE #3 The relay energizes when the output frequency of the drive exceeds the value
corresponding to the SPEED #3 value, and de-energizes when the output
frequency returns to a value lower than the SPEED #3 value. See Parameter 3 -
SPEED #3 in Section 18.0 - DESCRIPTION OF PARAMETERS.
I LIMIT CURRENT LIMIT - The relay energizes when the drive is operating in
current limit. Once the current limit relay is energized, it remains energized for a
minimum of 500ms, regardless of whether the drive is still in current limit. At the
end of the 500ms interval, the relay will de-energize if the drive is no longer in
current limit. See Parameter 16 - CURRENT in Section 18.0 - DESCRIPTION
OF PARAMETERS.
AUT/MAN The relay energizes when the drive is in the AUTOMATIC mode, and
de-energizes in the MANUAL mode. Refer to Section 14.2.6 - SPEED
REFERENCE SELECTION.
17
7.0 INSTALLATION
DRIVES MUST NOT BE INSTALLED WHERE SUBJECTED TO ADVERSE ENVI-
RONMENTAL CONDITIONS! DRIVES MUST NOT BE INSTALLED WHERE
SUBJECTED TO: COMBUSTIBLE, OILY, OR HAZARDOUS VAPORS OR DUST;
EXCESSIVE MOISTURE OR DIRT; STRONG VIBRATION; EXCESSIVE AMBIENT
TEMPERATURES. CONSULT LEESON FOR MORE INFORMATION ON THE
SUITABILITY OF A DRIVE TO A PARTICULAR ENVIRONMENT.
The drive should be mounted on a smooth vertical surface capable of safely supporting the unit without
vibrating. The LCD display has an optimum field of view, this should be considered when determining the
mounting position.
Chassis models must be installed in an electrical enclosure which will provide complete mechanical
protection and maintain uniform internal temperature within the drive's ambient operating temperature
rating. All drive models MUST be mounted in a vertical position for proper heatsink cooling. Fans or
blowers should be used to insure proper cooling in tight quarters. Do not mount drives above other drives
or heat producing equipment that would impede the cooling of the drive. Note the ambient operating
temperature ratings for each drive model.
Maintain a minimum spacing around the drive as follows:
If it is necessary to drill or cut the drive enclosure or panel, extreme care must be taken to avoid damaging
drive components or contaminating the drive with metal fragments (which cause shorting of electrical
circuits). Cover drive components with a clean cloth to keep out metal chips and other debris. Use a
vacuum cleaner to clean drive components after drilling, even if chips do not appear to be present. Do not
attempt to use positive air pressure to blow chips out of drive, as this tends to lodge debris under electronic
components. Contaminating the drive with metal chips can cause drive failure and will void the warranty.
18
WARNING
SPACING REQUIREMENTS
RATED SPACING
HP kW INCHES mm
0.25 - 5 0.18 - 4 2 50
7.5 - 25 5.5 - 18.5 4 100
30 - 60 22 - 45 6 150
This manual suits for next models
47
Table of contents
Other Leeson Inverter manuals
Popular Inverter manuals by other brands
Studer
Studer Solsafe concept Application note
Growatt
Growatt MID 1 7 KTL3-X1 Installation & operation manual
Universal Motors
Universal Motors Goodrive 10 Operation manual
Growatt
Growatt SPA TL3 BH-UP Series Installation & operation manual
Sincro
Sincro ER2CAA Use and maintenance manual
EINHELL
EINHELL HGG 120 NIRO CH operating manual
